| 职称:副教授、博士生导师 | |||
办公室:无线谷A3 | ||||
办公电话:025-52091653 | ||||
Email:zhechen@seu.edu.cn | ||||
学习经历: | ||||
2002年9月-2006年7月电子科技大学本科 2006年9月-2014年3月779cn太阳集团硕士/博士 | ||||
工作经历: | ||||
2014年6月至今779cn太阳集团毫米波全国重点实验室 2016年9月-2018年8月美国德克萨斯州立大学博士后 | ||||
教授课程: | ||||
1.微波器件原理与芯片设计– 本科 2.计算机组织与结构(外文)– 本科 | ||||
研究方向: | ||||
主要研究方向包括毫米波太赫兹CMOS/SiGe高速通信芯片技术、太赫兹频率源等。主持国家重点研发项目芯片课题、国家自然科学基金面上、青年项目,省级重大项目芯片课题,企业联合开发芯片项目等。发表高水平学术论文八十余篇,持有多项国家发明专利,在芯片学术会议ICAC、IEEE RFIT等作邀请报告,担任IEEE IWS/ICMMT/APCAP分会主席,担任第九届全国太赫兹科学技术学术年会TPC等,获得2024中国电子学会创新团队奖、“教育部学术新人奖”、“紫金青年学者”等。 每年招收硕士生、博士生若干名,欢迎优秀员工推免、报考 | ||||
获奖情况: | ||||
2024中国电子学会创新团队奖 2025江苏省工程师学会科学技术二等奖 2021年度“紫金青年学者” 2015年度青年教师授课竞赛提名奖 2012年国家教育部学术新人奖 指导员工获奖: 2025年度779cn太阳集团研究生至善奖学金、一等学业奖学金 2025年度省级优秀研究生毕业论文(推荐) 2025年度中国研究生电子设计竞赛省级三等奖 2025年度省级优秀本科毕设(提名) 2025年度校级优秀本科毕设 2020年度校级优秀本科毕设 | ||||
部分论文: | ||||
[1]Tang Dawei; Yang Chun, Zhou Peigen, Xia Xiaoyue, Li Zekun, Zhang Rui, Chen Zhe*; Chen Jixin; Gao Hao, Hong Wei. A Compact 90–180 GHz, 15–18 dBm Power Amplifier With Novel Self-Shielding Load-Open Balun and Broadband Fourth-Order LC Ladder Power Combiner in 28-nm CMOS, IEEE Journal of Solid-State Circuits [J], 2025. (通信作者) [2]Chen Zhe, Dong Hongcheng, Chen Zhiyu, Choi Wooyeol, Chen Ji-Xin, Kenneth K. O, Hong Wei. 380-GHz Third Harmonic Signal Generation Using Differentially Pumped Varactors in a CMOS Voltage Controlled Oscillator [J], IEEE Transactions on Circuits and Systems-I: Regular Papers, 2025 [3]Yan Zheng, Chen Jixin, Chen Zhe*, Tang Dawei, Yang Chun, Tang Si-Yuan, Sidou Zheng, Yan Pinpin, Li Zekun, Zhang Rui, Zhou Rui, Zhou Peigen, and Wei Hong. A 2.68-pJ/b 135-GHz OOK Transmitter With Class-F VCO in 28-nm CMOS for High-Speed Link [J], IEEE Transactions on Microwave Theory and Techniques, 2025 (通信作者) [4]Chen Zhe, Ma Xingye, Li Siyao, Zou Yan, Guo Yubin, Wang Pinqing, Qi Yue, Dong Hongcheng, Zheng Zichun, Zhou Peigen, Yan Pinpin, Chen Jixin, and Hong Wei. K-/Ka-/Q-Band Switched Filter Bank With Wideband Low-Loss SP4T Switch in 0.1 µm GaAs pHEMT Technology [J], IEEE Microwave and Wireless Technology Letters. 2025. [5]Que Qi,Chen Zhe*, Zheng Yan, Hongcheng Dong, Rui Zhou , Peigen Zhou , Pinpin Yan, Chen Jixin, and Hong Wei. A 110–150 GHz Broadband TDD Front End in SiGe BiCMOS [J], IEEE Microwave and Wireless Technology Letters. 2025. (通信作者) [6]Zheng Zichun, Chen Peng, Chen Zhe*, Wu Qi, Zhan Zetao, Chen Jixin, Hong Wei. A 56-72 GHz Broadband Load-Modulated Balanced Amplifier in 0.1 μm GaAs pHEMT Technology [C]. In 2025 IEEE Asia-Pacific Microwave Conference (APMC), 2025, Dec. 2-5, ICC JEJU, Jeju Island, Korea. (通信作者) [7]Tang Dawei, Xia Xiaoyue, Yan Zheng, Zhou Peigen, Li Zekun, Yang Chun, Zhang Rui, Chen Zhe, Chen Jixin, Gao Hao, and Hong Wei. A 90-to-180GHz APD-Integrated Transmitter Achieving 18dBm Psat in 28nm CMOS [C]. In IEEE International Solid-State Circuits Conference (ISSCC), 2024, Feb., San Francisco, CA, USA. [8]Zhang Rui; Tang Dawei; Chen Zhe*; Lu Liqun; Tang Siyuan; Zhou Peigen; Chen Jixin; Hong Wei. A D-Band OOK Transmitter With 50-GHz Bandwidth Achieving 32-Gbps Data Rate in 28-nm CMOS, IEEE Journal of Solid-State Circuits [J], 2024. (通信作者) [9]Yan Zheng, Chen Jixin, Chen Zhe*, Li Zekun, Zhang Rui, Zhou Rui, Zhou Peigen and Hong Wei. A 278-348 GHz 6th Harmonic Injection Locking Frequency Multiplier based on 3rd Harmonic Injection Locking Oscillator in 130 nm SiGe Process [C]. In IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 2024, June, Washington, DC, USA. (通信作者) [10]Yan Zheng, Chen Jixin,Chen Zhe*, Tang Dawei, Li Zekun, Zhang Rui, Zhou Peigen, and Hong Wei. A D-Band Power Amplifier With 60-GHz Large-Signal Bandwidth and 7.6% Peak PAE in 28-nm CMOS [J], IEEE Microwave and Wireless Technology Letters. 2024, 34(5): 540-543. (通信作者) [11]Zhang Rui, Tang Dawei, Chen Zhe, Lu Liqun; Tang Siyuan; Zhou Peigen; Chen Jixin; Hong Wei. A D-Band ASK Transmitter with 50GHz RF Bandwidth and Multi-Mode Interface Implemented in 28nm CMOS [C]. In IEEE Asian Solid-State Circuits Conference (A-SSCC), 2023, Nov., Haikou, China. [12]Tang Dawei, Li Z, Huang L, Zhang R, Lu L, Yang C, Yan Z, Zhou P, Chen Zhe, Chen Jixin; Hong Wei. A 110-160 GHz ASK Receiver with TR-Isomorphic LNPA and Multi-Mode Interface in 28-nm CMOS [C]. In IEEE Asian Solid-State Circuits Conference (A-SSCC), 2023, Nov., Haikou, China. [13]Zhang Rui,Chen Zhe*, Wang Zuojun, Chen Jixin, and Hong Wei. A 330-GHz Wide Tuning Range VCO Based on Common-Base Cross-Coupled Topology in SiGe BiCMOS Technology [J], IEEE Microwave and Wireless Technology Letters. 2023. (通信作者) [14]Zhang Rui,Chen Zhe*, Li Lekun, Hou Debin, Chen Jixin, Hong Wei. A Wide Tuning Range Low-Phase-Noise Ku/Ka Dual Bands SiGe VCO Based on Transformer-Coupled Tank [J], IEEE Microwave and Wireless Components Letters. 2022. (通信作者) [15]Chen Zhe, Zhiyu Chen, Wooyeol Choi, Kenneth K. O. 610-GHz Fourth Harmonic Signal Reactively Generated in a CMOS Voltage Controlled Oscillator Using Differentially Pumped Varactors [J], IEEE Solid-State Circuits Letters. 2020. [16]Chen Zhe, Dong Shenggang, Chen Zhiyu, etc. Generation of High Data Rate MSK-Modulated 180-GHz Signals [J], IEEE Microwave and Wireless Components Letters. 2019. [17]Chen Zhe, Wang Ming, Chen Ji-Xin, Liang Wen-Feng, Yan Pin-Pin, Zhai Jian-Feng, Hong Wei. Linear CMOS LC-VCO Based on Triple-Coupled Inductors and Its Application to 40-GHz Phase-Locked Loop [J], IEEE Transactions on Microwave Theory and Techniques, 2017 [18]Chen Zhe, Hong W, Chen J X, Zhou J Y. Design of A Push-Push and Push-Pull Oscillator Based on SIW/SICL Technique [J], IEEE Microwave and Wireless Components Letters. 2014. [19]Chen Zhe, Hong W, Chen J X, Zhou J Y. Design of High-Q Tunable SIW Resonator and Its Application to Low Phase Noise VCO [J], IEEE Microwave and Wireless Components Letters. 2013. | ||||
科研项目: | ||||
项目名称 | 项目类别 | 项目时间 | 类型 | |
硅基收发芯片技术研究 | 省级十大科技攻关项目芯片课题 | 2025.01-2027.12 | 课题负责人 | |
太赫兹无线智能通信芯片 | 企业联合项目 | 2026.02-2028.01 | 项目负责人 | |
亚毫米波多通道收发信机与天线一体化集成芯片 | 国家重点研发计划课题 | 2020.07-2023.06 | 课题负责人 | |
基于谐波收发前端的硅基调频连续波雷达芯片技术研究 | 国家自然科学基金 | 2022.01-2025.12 | 项目负责人 | |
CMOS毫米波频率源技术研究 | 国家自然科学基金 | 2016.01-2018.12 | 项目负责人 | |
CMOS收发芯片技术合作项目 | 企业联合项目 | 2021.01-2022.08 | 项目负责人 | |
